Core Viewpoint - NVIDIA is set to launch its AI server, the DGX GB300 NVL72, designed specifically for the AI inference era, featuring high chip computing power and a fully liquid-cooled rack design to meet the increased thermal design power (TDP) requirements [1] Group 1: Liquid Cooling Technology Development - Traditional air cooling solutions are inadequate for AI clusters with cabinet power densities exceeding 20 kW, leading to the adoption of fully liquid-cooled architectures by NVIDIA's OEM/ODM manufacturers [2] - Various liquid cooling solutions exist, including cold plate, immersion, and spray cooling, with cold plate technology being the most mature but having lower cooling efficiency compared to immersion and spray cooling [2] Group 2: Cold Plate Liquid Cooling Components - Cold plate liquid cooling is a mainstream solution for large-scale data center retrofitting, involving components such as the cooling distribution unit (CDU), cold plates, circulation pipelines, quick connectors, and manifolds [3] - The CDU acts as the "heart" of the system, relying on the performance of circulation pumps and heat exchangers [3] - Cold plates capture heat from high-heat components like GPUs, with performance metrics including pressure drop and thermal resistance being critical [3] Group 3: Immersion Liquid Cooling Components - Immersion cooling involves submerging electronic components in an insulating cooling liquid, utilizing the liquid's high heat capacity for efficient heat transfer [5] - Compared to cold plate systems, immersion cooling has a simpler secondary structure and requires careful selection of cooling liquid materials to prevent evaporation and ensure compatibility with data center equipment [6] Group 4: Spray Liquid Cooling Components - Spray cooling utilizes gravity or system pressure to directly spray cooling liquid onto high-heat components, achieving efficient heat capture [7] - Unlike cold plate systems, spray cooling operates without phase change and requires high-boiling, insulating, and oxidation-resistant cooling fluids [8] Group 5: Upstream Directions Worth Noting - Electronic fluorinated liquids are essential for immersion and spray cooling due to their high insulation and stability properties [9] - High-efficiency thermal interface materials (TIM) such as liquid metals are predicted to become mainstream, enhancing cooling performance for high-power CPUs while being compatible with both immersion and cold plate cooling systems [9] Group 6: Relevant Investment Targets in Liquid Cooling - Key players in the liquid cooling supply chain include companies like Invec (002837.SZ), Shenling Environment (301018.SZ), and others [10] - Component suppliers with low domestic production rates, such as Kexin New Source (300731.SZ) and Chuanhuan Technology (300547.SZ), are also noteworthy [10] - Upstream material suppliers like Juhua Co. (600160.SH) and Xinjubang (300037.SZ) are significant in the liquid cooling market [10]